Apparatus for removing a printed circuit board (PCB) and bezel assembly from a unit includes a pull spring is attached to opposing sides of the PCB and bezel assembly. Each pull spring includes a generally m-shaped spring. A first end of the m-shaped spring includes a first pin carrying a knob. The first pin extends through an opening in the bezel and the knob is disposed within a recessed portion of the bezel and is generally flush with a front face of the bezel with the m-shaped spring compressed in a normal constrained position. In an extended position when the m-shaped springs return to a substantially uncompressed state, the knobs are pushed forward and are spaced apart in front of the bezel, enabling a person to grip and pull each knob to remove the PCB and bezel assembly from the unit in which it is installed.
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1. An apparatus for removing a printed circuit board (PCB) and bezel assembly from a unit comprising:
a pair of pull springs; said pull springs being attached to opposing sides of the PCB and bezel assembly;
each said pull spring including a generally m-shaped spring;
said m-shaped spring including a first end with a first pin extending through the bezel and carrying a knob in front of the bezel; and a second end of the m-shaped spring being attached with the PCB and bezel assembly;
in a constrained position, said first pin extending through an opening in the bezel and said knob being disposed within the bezel recessed portion and said m-shaped spring compressed;
in an extended position, said m-shaped springs returning to a substantially uncompressed state, said knobs being pushed forward, spaced apart in front of the bezel, enabling a user access to each knob to remove the PCB and bezel assembly.
2. The apparatus for removing a printed circuit board (PCB) and bezel assembly from a unit as recited in
3. The apparatus for removing a printed circuit board (PCB) and bezel assembly from a unit as recited in
4. The apparatus for removing a printed circuit board (PCB) and bezel assembly from a unit as recited in
5. The apparatus for removing a printed circuit board (PCB) and bezel assembly from a unit as recited in
6. The apparatus for removing a printed circuit board (PCB) and bezel assembly from a unit assembly as recited in
7. The apparatus for removing a printed circuit board (PCB) and bezel assembly from a unit as recited in
8. The apparatus for removing a printed circuit board (PCB) and bezel assembly from a unit as recited in
9. The apparatus for removing a printed circuit board (PCB) and bezel assembly from a unit as recited in
10. The apparatus for removing a printed circuit board (PCB) and bezel assembly from a unit as recited in
11. The apparatus for removing a printed circuit board (PCB) and bezel assembly from a unit as recited in
12. The apparatus for removing a printed circuit board (PCB) and bezel assembly from a unit as recited in
13. The apparatus for removing a printed circuit board (PCB) and bezel assembly from a unit as recited in
14. The apparatus for removing a printed circuit board (PCB) and bezel assembly from a unit as recited in
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The present invention relates generally to the data processing field, and more particularly, relates to apparatus for removing a printed circuit board (PCB) and bezel assembly from card guides, without requiring the use of tools.
A need exists for an effective mechanism that allows a user removing a printed circuit board (PCB) and bezel assembly from card guides, particularly with limited available space and restricted access around the bezel.
A mechanism facilitating removal of the PCB and bezel assembly is needed for applications requiring the PCB bezels to be nearly surface to surface, one above the next, so there is substantially no space available above and below the bezels by which to enable using fingers to grasp the bezel to remove the assembly. Also such mechanism facilitating removal of the PCB and bezel assembly is needed for applications where the sides of the bezels cannot be used to remove the assemblies with fingers because the sheet metal cage and outer cover restrict access.
Such mechanism facilitating removal of the PCB and bezel assembly is needed where only front access is permitted to the enclosure in which the PCB and bezel assemblies are inserted. Further some applications require that the mechanism facilitating removal of the PCB and bezel assembly must be concealed behind a cover, which fits tightly, flush against the bezels, so that nothing may protrude from the front of the enclosure.
A tool-less design is required because the PCB/bezel assemblies are Customer Replaceable Units (CRUs). It is desirable also that the mechanism be generally inexpensive.
A principal aspect of the present invention is to provide apparatus for removing a printed circuit board (PCB) and bezel assembly from card guides in a rack, frame, or the like unit. Other important aspects of the present invention are to provide such apparatus for removing a printed circuit board (PCB) and bezel assembly substantially without negative effect and that overcome many of the disadvantages of prior art arrangements.
In brief, apparatus is provided for removing a printed circuit board (PCB) and bezel assembly from a unit. A pull spring is attached to opposing sides of the PCB and bezel assembly. Each pull spring includes a generally M-shaped spring. A first end of the M-shaped spring includes a first pin carrying a knob. A second end of the M-shaped spring includes a second pin for mounting engagement of the pull spring with the PCB and bezel assembly. The first pin extends through an opening in the bezel and the knob is disposed within the bezel opening generally flush with a front face of the bezel with the M-shaped spring compressed in a constrained position. In an extended position provided when the M-shaped springs return to a substantially uncompressed state, the knobs are pushed forward and are spaced apart in front of the bezel, enabling a person to grip and pull each knob to remove the PCB and bezel assembly from the unit in which it is installed.
In accordance with features of the invention, the pull spring is provided in the constrained position with a cover is closed holding the PCB and bezel assembly in the unit. When the cover is removed, the M-shaped springs return to a substantially uncompressed state, the knobs are pushed forward in the extended position. The first end of the M-shaped spring engages a stop surface of the bezel when the M-shaped springs are uncompressed in the extended position.
In accordance with features of the invention, the pull spring is formed of an electrically nonconductive material, such as a plastic material, that retains spring action while being compressed for an extended period of time, such as for several months. For example, the pull spring is formed of an unreinforced, flame retarded Polypropylene material with a melt flow of 3-5 g per 10 minutes.
In accordance with features of the invention, the pull spring is an integral unit or a unitary member. The pull spring is formed, for example, by injection molding technique.
The present invention together with the above and other objects and advantages may best be understood from the following detailed description of the preferred embodiments of the invention illustrated in the drawings, wherein:
In accordance with features of the invention, a user is enabled to eject a PCB from a card edge connector on a backplane, and to remove the PCB and bezel assembly from the card guides in which the assembly is inserted without requiring tools. The apparatus of the invention enables the PCB and bezel assembly to be used for applications requiring the PCB bezels to be nearly surface-to-surface, one above the next, so there is substantially no space available above and below the bezels by which to use fingers to grasp the bezel to remove the assembly. The sides of the bezels are not used to remove the assemblies because sheet metal cage and outer cover restrict access. The apparatus of the invention enables tool-less removal that is required when the PCB/bezel assemblies are Customer Replaceable Units (CRUs). The apparatus of the invention enables the PCB and bezel assembly to be used for applications permitting only front access to the enclosure in which the PCB and bezel assemblies are inserted. The apparatus of the invention may be concealed behind a cover, which fits tightly, flush against the bezels. None of the apparatus of the invention may protrude from the front of the enclosure. The apparatus of the invention used to facilitate removal of the PCB and bezel assembly also is generally inexpensive.
In accordance with features of the invention, the apparatus includes two pull springs that are provided with each PCB and bezel assembly, one on each side. When the cover is closed it holds the PCB and bezel assemblies in place. The pull springs are pushed through openings in the bezels by which they are constrained, and the springs are compressed. The knob on the end of each pull spring moves to a point where it is flush within a recessed portion in the bezel, concealing the knobs behind the cover. When the cover is opened, the spring forces the pull springs forward and the knob on each side of the bezel becomes available, such that a person may grip each knob, pull the knobs forward or toward the user, and remove the PCB and bezel assembly from the unit in which it is installed.
Having reference now to the drawings, in
Apparatus 100 is shown with a printed circuit board (PCB) 102 assembled with a bezel 104. A respective pull spring generally designated by the reference character 106 is attached to opposing sides 108 of the assembly of PCB 102 and bezel 104. A second end 110 of the PCB 102 or backplane 102 opposite the bezel 104 includes electrical connections, for example, provided by a card edge connector (not shown).
Each pull spring 106 includes an M-shaped spring generally designated by the reference character 112. A first end 114 of the M-shaped spring 112 includes a first pin 116 carrying a knob 118. A second end 120 of the M-shaped spring 110 includes a mounting pin 122 with an enlarged flanged end 124 for attaching the pull spring 106 to the PCB and bezel assembly.
Referring to
Referring to
In the extended position the knob 118 is disposed spaced apart in front of the bezel 104 when the M-shaped spring 112 is released and returns to a generally uncompressed state, for example, when the cover is removed from the unit. In the extended position the knob 118 of the pull spring 106 functions as a handle for a user. The second end 120 of the M-shaped spring 112 engages an inwardly extending ledge 136 of the bezel 104 at a mounting location 140 with the second pin 122 received within the mounting location or slot 140.
In
In operation of the pull springs 106, for both the compressed state of M-shaped spring 112 in the constrained position of
In the extended position of
The pull spring 106 is formed of an electrically nonconductive material, such as a plastic material, that retains spring action while being compressed for an extended period of time, such as for several months. For example, the pull spring is formed of an unreinforced, flame retarded Polypropylene material with a melt flow of 3-5 g per 10 minutes.
The pull spring 106 is an integral unit or a unitary member. The pull spring 106 is formed, for example, by injection molding technique.
While the present invention has been described with reference to the details of the embodiments of the invention shown in the drawing, these details are not intended to limit the scope of the invention as claimed in the appended claims.
Dingfelder, Donald Wayne, Gerken, James Dorance, LaPree, Scott Raymond, Smith, Gregory Todd
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Executed on | Assignor | Assignee | Conveyance | Frame | Reel | Doc |
Jan 13 2006 | DINGFELDER, DONALD WAYNE | International Business Machines Corporation | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 017224 | /0119 | |
Jan 13 2006 | GERKEN, JAMES DORANCE | International Business Machines Corporation | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 017224 | /0119 | |
Jan 13 2006 | LAPREE, SCOTT RAYMOND | International Business Machines Corporation | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 017224 | /0119 | |
Jan 13 2006 | SMTIH, GREGORY TODD | International Business Machines Corporation | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 017224 | /0119 | |
Jan 19 2006 | International Business Machines Corporation | (assignment on the face of the patent) | / | |||
Sep 26 2014 | International Business Machines Corporation | LENOVO INTERNATIONAL LIMITED | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 034194 | /0291 |
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